/* * Copyright (C) 2011 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.animation; import android.os.Handler; import android.test.ActivityInstrumentationTestCase2; import android.test.UiThreadTest; import android.test.suitebuilder.annotation.MediumTest; import android.test.suitebuilder.annotation.SmallTest; import android.view.ViewPropertyAnimator; import android.widget.Button; import com.android.frameworks.coretests.R; import java.util.concurrent.TimeUnit; /** * Tests for the various lifecycle events of Animators. This abstract class is subclassed by * concrete implementations that provide the actual Animator objects being tested. All of the * testing mechanisms are in this class; the subclasses are only responsible for providing * the mAnimator object. * * This test is more complicated than a typical synchronous test because much of the functionality * must happen on the UI thread. Some tests do this by using the UiThreadTest annotation to * automatically run the whole test on that thread. Other tests must run on the UI thread and also * wait for some later event to occur before ending. These tests use a combination of an * AbstractFuture mechanism and a delayed action to release that Future later. */ public abstract class ViewPropertyAnimatorTest extends ActivityInstrumentationTestCase2 { protected static final int ANIM_DURATION = 400; protected static final int ANIM_DELAY = 100; protected static final int ANIM_MID_DURATION = ANIM_DURATION / 2; protected static final int ANIM_MID_DELAY = ANIM_DELAY / 2; protected static final int FUTURE_RELEASE_DELAY = 50; private boolean mStarted; // tracks whether we've received the onAnimationStart() callback protected boolean mRunning; // tracks whether we've started the animator private boolean mCanceled; // trackes whether we've canceled the animator protected Animator.AnimatorListener mFutureListener; // mechanism for delaying the end of the test protected FutureWaiter mFuture; // Mechanism for waiting for the UI test to complete private Animator.AnimatorListener mListener; // Listener that handles/tests the events protected ViewPropertyAnimator mAnimator; // The animator used in the tests. Must be set in subclass // setup() method prior to calling the superclass setup() /** * Cancels the given animator. Used to delay cancellation until some later time (after the * animator has started playing). */ protected static class Canceler implements Runnable { ViewPropertyAnimator mAnim; FutureWaiter mFuture; public Canceler(ViewPropertyAnimator anim, FutureWaiter future) { mAnim = anim; mFuture = future; } @Override public void run() { try { mAnim.cancel(); } catch (junit.framework.AssertionFailedError e) { mFuture.setException(new RuntimeException(e)); } } }; /** * Timeout length, based on when the animation should reasonably be complete. */ protected long getTimeout() { return ANIM_DURATION + ANIM_DELAY + FUTURE_RELEASE_DELAY; } /** * Releases the given Future object when the listener's end() event is called. Specifically, * it releases it after some further delay, to give the test time to do other things right * after an animation ends. */ protected static class FutureReleaseListener extends AnimatorListenerAdapter { FutureWaiter mFuture; public FutureReleaseListener(FutureWaiter future) { mFuture = future; } /** * Variant constructor that auto-releases the FutureWaiter after the specified timeout. * @param future * @param timeout */ public FutureReleaseListener(FutureWaiter future, long timeout) { mFuture = future; Handler handler = new Handler(); handler.postDelayed(new Runnable() { @Override public void run() { mFuture.release(); } }, timeout); } @Override public void onAnimationEnd(Animator animation) { Handler handler = new Handler(); handler.postDelayed(new Runnable() { @Override public void run() { mFuture.release(); } }, FUTURE_RELEASE_DELAY); } }; public ViewPropertyAnimatorTest() { super(BasicAnimatorActivity.class); } /** * Sets up the fields used by each test. Subclasses must override this method to create * the protected mAnimator object used in all tests. Overrides must create that animator * and then call super.setup(), where further properties are set on that animator. * @throws Exception */ @Override public void setUp() throws Exception { final BasicAnimatorActivity activity = getActivity(); Button button = (Button) activity.findViewById(R.id.animatingButton); mAnimator = button.animate().x(100).y(100); super.setUp(); // mListener is the main testing mechanism of this file. The asserts of each test // are embedded in the listener callbacks that it implements. mListener = new AnimatorListenerAdapter() { @Override public void onAnimationStart(Animator animation) { // This should only be called on an animation that has not yet been started assertFalse(mStarted); assertTrue(mRunning); mStarted = true; } @Override public void onAnimationCancel(Animator animation) { // This should only be called on an animation that has been started and not // yet canceled or ended assertFalse(mCanceled); assertTrue(mRunning); assertTrue(mStarted); mCanceled = true; } @Override public void onAnimationEnd(Animator animation) { // This should only be called on an animation that has been started and not // yet ended assertTrue(mRunning); assertTrue(mStarted); mRunning = false; mStarted = false; super.onAnimationEnd(animation); } }; mAnimator.setListener(mListener); mAnimator.setDuration(ANIM_DURATION); mFuture = new FutureWaiter(); mRunning = false; mCanceled = false; mStarted = false; } /** * Verify that calling cancel on an unstarted animator does nothing. */ @UiThreadTest @SmallTest public void testCancel() throws Exception { mAnimator.cancel(); } /** * Verify that calling cancel on a started animator does the right thing. */ @UiThreadTest @SmallTest public void testStartCancel() throws Exception { mFutureListener = new FutureReleaseListener(mFuture); getActivity().runOnUiThread(new Runnable() { @Override public void run() { try { mRunning = true; mAnimator.start(); mAnimator.cancel(); mFuture.release(); } catch (junit.framework.AssertionFailedError e) { mFuture.setException(new RuntimeException(e)); } } }); mFuture.get(getTimeout(), TimeUnit.MILLISECONDS); } /** * Same as testStartCancel, but with a startDelayed animator */ @SmallTest public void testStartDelayedCancel() throws Exception { mFutureListener = new FutureReleaseListener(mFuture); mAnimator.setStartDelay(ANIM_DELAY); getActivity().runOnUiThread(new Runnable() { @Override public void run() { try { mRunning = true; mAnimator.start(); mAnimator.cancel(); mFuture.release(); } catch (junit.framework.AssertionFailedError e) { mFuture.setException(new RuntimeException(e)); } } }); mFuture.get(getTimeout(), TimeUnit.MILLISECONDS); } /** * Verify that canceling an animator that is playing does the right thing. */ @MediumTest public void testPlayingCancel() throws Exception { mFutureListener = new FutureReleaseListener(mFuture); getActivity().runOnUiThread(new Runnable() { @Override public void run() { try { Handler handler = new Handler(); mAnimator.setListener(mFutureListener); mRunning = true; mAnimator.start(); handler.postDelayed(new Canceler(mAnimator, mFuture), ANIM_MID_DURATION); } catch (junit.framework.AssertionFailedError e) { mFuture.setException(new RuntimeException(e)); } } }); mFuture.get(getTimeout(), TimeUnit.MILLISECONDS); } /** * Same as testPlayingCancel, but with a startDelayed animator */ @MediumTest public void testPlayingDelayedCancel() throws Exception { mAnimator.setStartDelay(ANIM_DELAY); mFutureListener = new FutureReleaseListener(mFuture); getActivity().runOnUiThread(new Runnable() { @Override public void run() { try { Handler handler = new Handler(); mAnimator.setListener(mFutureListener); mRunning = true; mAnimator.start(); handler.postDelayed(new Canceler(mAnimator, mFuture), ANIM_MID_DURATION); } catch (junit.framework.AssertionFailedError e) { mFuture.setException(new RuntimeException(e)); } } }); mFuture.get(getTimeout(), TimeUnit.MILLISECONDS); } /** * Same as testPlayingDelayedCancel, but cancel during the startDelay period */ @MediumTest public void testPlayingDelayedCancelMidDelay() throws Exception { mAnimator.setStartDelay(ANIM_DELAY); getActivity().runOnUiThread(new Runnable() { @Override public void run() { try { // Set the listener to automatically timeout after an uncanceled animation // would have finished. This tests to make sure that we're not calling // the listeners with cancel/end callbacks since they won't be called // with the start event. mFutureListener = new FutureReleaseListener(mFuture, getTimeout()); Handler handler = new Handler(); mRunning = true; mAnimator.start(); handler.postDelayed(new Canceler(mAnimator, mFuture), ANIM_MID_DELAY); } catch (junit.framework.AssertionFailedError e) { mFuture.setException(new RuntimeException(e)); } } }); mFuture.get(getTimeout() + 100, TimeUnit.MILLISECONDS); } /** * Verifies that canceling a started animation after it has already been canceled * does nothing. */ @MediumTest public void testStartDoubleCancel() throws Exception { mFutureListener = new FutureReleaseListener(mFuture); getActivity().runOnUiThread(new Runnable() { @Override public void run() { try { mRunning = true; mAnimator.start(); mAnimator.cancel(); mAnimator.cancel(); mFuture.release(); } catch (junit.framework.AssertionFailedError e) { mFuture.setException(new RuntimeException(e)); } } }); mFuture.get(getTimeout(), TimeUnit.MILLISECONDS); } /** * Same as testStartDoubleCancel, but with a startDelayed animator */ @MediumTest public void testStartDelayedDoubleCancel() throws Exception { mAnimator.setStartDelay(ANIM_DELAY); mFutureListener = new FutureReleaseListener(mFuture); getActivity().runOnUiThread(new Runnable() { @Override public void run() { try { mRunning = true; mAnimator.start(); mAnimator.cancel(); mAnimator.cancel(); mFuture.release(); } catch (junit.framework.AssertionFailedError e) { mFuture.setException(new RuntimeException(e)); } } }); mFuture.get(getTimeout(), TimeUnit.MILLISECONDS); } }